MSO70000C/DX,
DPO70000C/DX, DPO7000C,
MSO5000/B, and DPO5000/B
Series Oscilloscopes
Specifications and Performance Verification
Technical Reference
*P077006314*
077-0063-14
MSO70000C/DX,
DPO70000C/DX, DPO7000C,
MSO5000/B, and DPO5000/B
Series Oscilloscopes
Specifications and Performance Verification
Technical Reference
Warning
The servicing instructions are for use by qualified personnel only. To avoid
personal injury, do not perform any servicing unless you are qualified to do
so. Refer to all safety summaries prior to performing service.
This document supports product firmware version 6.8.0 and above.
Revision B
TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.
Pinpoint, TekLink, and RT-Eye are registered trademarks of Tektronix, Inc.
Contacting Tektronix
Tektronix, Inc.
14150 SW Karl Braun Drive
P.O. Box 500
Beaverton, OR 97077
USA
For product information, sales, service, and technical support:
■
In North America, call 1-800-833-9200.
■
Worldwide, visit www.tek.com to find contacts in your area.
Warranty
Tektronix warrants that this product will be free from defects in materials and workmanship for a period of one
(1) year from the date of shipment. If any such product proves defective during this warranty period, Tektronix, at
its option, either will repair the defective product without charge for parts and labor, or will provide a replacement
in exchange for the defective product. Parts, modules and replacement products used by Tektronix for warranty
work may be new or reconditioned to like new performance. All replaced parts, modules and products become the
property of Tektronix.
In order to obtain service under this warranty, Customer must notify Tektronix of the defect before the expiration
of the warranty period and make suitable arrangements for the performance of service. Customer shall be
responsible for packaging and shipping the defective product to the service center designated by Tektronix, with
shipping charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a
location within the country in which the Tektronix service center is located. Customer shall be responsible for
paying all shipping charges, duties, taxes, and any other charges for products returned to any other locations.
This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage
resulting from attempts by personnel other than Tektronix representatives to install, repair or service the product;
b) to repair damage resulting from improper use or connection to incompatible equipment; c) to repair any
damage or malfunction caused by the use of non-Tektronix supplies; or d) to service a product that has been
modified or integrated with other products when the effect of such modification or integration increases the time
or difficulty of servicing the product.
THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECT TO THE PRODUCT IN LIEU OF ANY
OTHER WARRANTIES, EXPRESS OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY
IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
TEKTRONIX' RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE AND
EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.
TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL,
INCIDENTAL, OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE
VENDOR HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.
[W2 – 15AUG04]
Table of Contents
Important safety information..............................................................................................................iii
General safety summary................................................................................................................iii
Terms in the manual......................................................................................................................vi
Terms on the product.....................................................................................................................vi
Symbols on the product.................................................................................................................vi
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Vertical system analog channels.....................................................................................................2
Horizontal and acquisition system................................................................................................48
ii MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Important safety information
This manual contains information and warnings that must be followed by the user
for safe operation and to keep the product in a safe condition.
General safety summary
Use the product only as specified. Review the following safety precautions to
avoid injury and prevent damage to this product or any products connected to it.
Carefully read all instructions. Retain these instructions for future reference.
Comply with local and national safety codes.
For correct and safe operation of the product, it is essential that you follow
generally accepted safety procedures in addition to the safety precautions
specified in this manual.
The product is designed to be used by trained personnel only.
Only qualified personnel who are aware of the hazards involved should remove
the cover for repair, maintenance, or adjustment.
Before use, always check the product with a known source to be sure it is
operating correctly.
This product is not intended for detection of hazardous voltages.
Use personal protective equipment to prevent shock and arc blast injury where
hazardous live conductors are exposed.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series iii
Important safety information
To avoid fire or personal
injury
Use proper power cord. Use only the power cord specified for this product and
certified for the country of use. Do not use the provided power cord for other
products.
Ground the product. This product is grounded through the grounding conductor of
the power cord. To avoid electric shock, the grounding conductor must be
connected to earth ground. Before making connections to the input or output
terminals of the product, ensure that the product is properly grounded. Do not
disable the power cord grounding connection.
Power disconnect. The power cord disconnects the product from the power
source. See instructions for the location. Do not position the equipment so that it
is difficult to operate the power cord; it must remain accessible to the user at all
times to allow for quick disconnection if needed.
Connect and disconnect properly. Do not connect or disconnect probes or test
leads while they are connected to a voltage source. Use only insulated voltage
probes, test leads, and adapters supplied with the product, or indicated by
Tektronix to be suitable for the product.
Observe all terminal ratings. To avoid fire or shock hazard, observe all rating and
markings on the product. Consult the product manual for further ratings
information before making connections to the product. Do not exceed the
Measurement Category (CAT) rating and voltage or current rating of the lowest
rated individual component of a product, probe, or accessory. Use caution when
using 1:1 test leads because the probe tip voltage is directly transmitted to the
product.
Do not apply a potential to any terminal, including the common terminal, that
exceeds the maximum rating of that terminal.
Do not operate without covers. Do not operate this product with covers or panels
removed, or with the case open. Hazardous voltage exposure is possible.
Avoid exposed circuitry. Do not touch exposed connections and components when
power is present.
Do not operate with suspected failures. If you suspect that there is damage to this
product, have it inspected by qualified service personnel.
Disable the product if it is damaged. Do not use the product if it is damaged or
operates incorrectly. If in doubt about safety of the product, turn it off and
disconnect the power cord. Clearly mark the product to prevent its further
operation.
Before use, inspect voltage probes, test leads, and accessories for mechanical
damage and replace when damaged. Do not use probes or test leads if they are
damaged, if there is exposed metal, or if a wear indicator shows.
Examine the exterior of the product before you use it. Look for cracks or missing
pieces.
Use only specified replacement parts.
Do not operate in wet/damp conditions. Be aware that condensation may occur if a
unit is moved from a cold to a warm environment.
Do not operate in an explosive atmosphere.
iv MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Important safety information
Keep product surfaces clean and dry. Remove the input signals before you clean
the product.
Provide proper ventilation. Refer to the manual's installation instructions for
details on installing the product so it has proper ventilation.
Slots and openings are provided for ventilation and should never be covered or
otherwise obstructed. Do not push objects into any of the openings.
Provide a safe working environment. Always place the product in a location
convenient for viewing the display and indicators.
Avoid improper or prolonged use of keyboards, pointers, and button pads.
Improper or prolonged keyboard or pointer use may result in serious injury.
Be sure your work area meets applicable ergonomic standards. Consult with an
ergonomics professional to avoid stress injuries.
Use care when lifting and carrying the product. This product is provided with
handles for lifting and carrying.
WARNING. The product is heavy. To reduce the risk of personal injury or damage
to the device get help when lifting or carrying the product.
Probes and test leads
Use only the Tektronix rackmount hardware specified for this product.
Before connecting probes or test leads, connect the power cord from the power
connector to a properly grounded power outlet.
Keep fingers behind the finger guards on the probes.
Remove all probes, test leads and accessories that are not in use.
Use only correct Measurement Category (CAT), voltage, temperature, altitude,
and amperage rated probes, test leads, and adapters for any measurement.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series v
Important safety information
Terms in the manual
Terms on the product
These terms may appear in this manual:
WARNING. Warning statements identify conditions or practices that could result
in injury or loss of life.
CAUTION. Caution statements identify conditions or practices that could result in
damage to this product or other property.
These terms may appear on the product:
■
DANGER indicates an injury hazard immediately accessible as you read the
marking.
Symbols on the product
■
WARNING indicates an injury hazard not immediately accessible as you
read the marking.
■
CAUTION indicates a hazard to property including the product.
When this symbol is marked on the product, be sure to consult the
manual to find out the nature of the potential hazards and any actions
which have to be taken to avoid them. (This symbol may also be used
to refer the user to ratings in the manual.)
The following symbols may appear on the product:
vi MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Specifications (MSO70000C/DX, DPO70000C/DX, and
DPO7000C series)
This chapter contains specifications for the instrument. All specifications are
guaranteed unless noted as "typical." Typical specifications are provided for your
convenience but are not guaranteed. Specifications that are marked with the
symbol are checked in this manual. All specifications apply to all models unless
noted otherwise.
<4 GHz models. Includes the DPO7000C Series instruments unless noted
otherwise.
Table 1: Instrument Model Numbers (<4 GHz)
DPO
7354C (3.5 GHz)
7254C (2.5 GHz)
7104C (1 GHz)
7054C (500 MHz)
≥4 GHz, ≤20 GHz models. Includes the MSO70000C and DPO70000C Series
instruments unless noted otherwise.
Table 2: Instrument Model Numbers (≥4 GHz, ≤20 GHz)
MSODPO
70404C (4 GHz)70404C (4 GHz)
70604C (6 GHz)70604C (6 GHz)
70804C (8 GHz)70804C (8 GHz)
71254C (12.5 GHz)71254C (12.5 GHz)
71604C (16 GHz)71604C (16 GHz)
72004C (20 GHz)72004C (20 GHz)
>20 GHz models. Includes the MSO70000DX and DPO70000DX Series
instruments unless noted otherwise.
Table 3: Instrument Model Numbers (>20 GHz)
MSODPO
72304DX (23 GHz)72304DX (23 GHz)
72504DX (25 GHz)72504DX (25 GHz)
73304DX (33 GHz)73304DX (33 GHz)
≥4 GHz models. Includes all MSO70000C/DX and DPO70000C/DX Series
instruments.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 1
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
To meet specifications, two conditions must first be met:
■
The instrument must have been calibrated in an ambient temperature between
18 °C and 28 °C (64 °F and 82 °F).
■
The instrument must be operating within the environmental limits. (See page
1-78.)
■
The instrument must be powered from a source that meets the specifications.
(See page 2-18.)
■
The instrument must have been operating continuously for at least 20 minutes
within the specified operating temperature range. (60 minutes continuous
operation required for the MSO/DPO70000DX instruments if the ambient
relative humidity is greater than 60%.)
■
You must perform the Signal Path Compensation procedure after the warmup period. See the online help for instructions on how to perform signal path
compensation. If the ambient temperature changes more than 5 °C, repeat the
procedure.
Vertical system analog channels
Number of channelsFour channels, all identical
Input connector
≥ 4 GHz modelsTekConnect. Power supply compatible with VPI.
< 4 GHz modelsBNC and VPI probe
Input coupling
>20 GHz modelsDC, 50 Ω to a programmable termination voltage, and GND.
GND coupling disconnects the input connector from all channel input circuitry and connects a
ground reference to the channel input circuitry.
The termination in 50 Ω coupling can be connected to any DC value from –3.5 V to +3.5 V.
≥4 GHz, ≤20 GHz modelsDC, 50 Ω, and GND. GND coupling disconnects the input connector from all channel input circuitry
and connects a ground reference to the channel input circuitry.
<4 GHz modelsDC, AC, or GND. GND coupling approximates ground reference by measuring an unused
preamplifier input that has been connected to ground. The signal being measured is not
disconnected from the channel input load.
Input resistance >20 GHz
models
≤1.2 VFS settings50 Ω ±3% at 18 to 28 ºC (64 to 82 ºF)
50 Ω ±4% over 5 to 45 ºC (45 to 113 ºF), type tested
>1.2 VFS settings50 Ω ±4.4% over 5 to 45 ºC (45 to 113 ºF), type tested
2 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Input resistance ≥4 GHz
≤20 GHz models
100 mVFS to 995 mVFS:50 Ω ±1.5% at 25 ºC (77 ºF)
50 Ω ±2% over 10 to 45 ºC (50 to 113 ºF), type tested
1 VFS to 5 VFS:50 Ω ±2.2 Ω over 10 to 45 ºC (50 to 113 ºF), type tested
Input impedance DC coupled
<4 GHz models
1 MΩ, DC coupled1 MΩ ± 1% in parallel with 13 pF ± 2 pF
50 Ω, DC coupled50 Ω ± 1%, typical
Maximum input voltage range
>20 GHz models
≤1.2 VFS settings:±1.5 V relative to the termination bias (30 mA maximum)
±5 V absolute maximum input
>1.2 VFS settings:8 V. Limited by maximum Vterm current and the attenuator power rating at maximum temperature.
Maximum input voltage ≥4 GHz
and ≤20 GHz models
<1.0 V/Full Scale settings:±3.3 V Maximum
≥ 1.0 V/Full Scale settings:±5.0 V Maximum
Maximum input voltage <4 GHz
models
1 MΩ – DC coupled150 V. Derate at 20 dB/decade to 9 VRMS above 200 kHz.
1 MΩ – AC coupled, or GND
coupled
50 Ω5 V RMS, with peaks ≤ ± 24 V
Measurement category for MSODPO70K and DPO7K series only
Input termination voltage (VTerm)
range >20 GHz models
≤1.2 VFS settings:-3.5 V to +3.5 V
>1.2 VFS settings:0 V
Input termination voltage (VTerm)
range ≤20 GHz models
The maximum input voltage at the BNC, between center conductor and ground is 400 V peak. The
RMS voltage is limited to <150 V for arbitrary waveshapes including DC. The maximum pulse width
for impulses with peaks over 150 V is 50 μs. Example: At 0 V to 400 V peak, rectangular wave, the
duty factor is 14%.
The maximum transient withstand voltage is ± 800 V peak.
The measuring terminals on this product are not rated for connection to mains or Measurement
Category II, III or IV circuits.
0 V
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 3
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
Input VSWR >20 GHz models,
typical
≤1.2 VFS settings:0 – 17 GHz: 1.4:1
>1.2 VFS settings:0 – 17 GHz: 1.4:1
Input VSWR ≥4 GHz ≤20 GHz
models
Input VSWR <4 GHz models
Measured with a TekConnect TCA-292D adaptor and a network analyzer.
17 – 20 GHz: 1.6:1
20 – 33 GHz: 2.0:1
17 – 33 GHz: 2.0:1
Measured with a TekConnect SMA adapter and a network analyzer
Convert offset, position and the constant offset term to volts by multiplying by the appropriate volts/
div.
Specification applies to any sample and to the High, Low, Max, Min, Mean, Cycle Mean, RMS, and
Cycle RMS measurements. Delta volts specification applies to subtractive calculations involving
two of these measurements. Delta volts specification applies to the Positive Overshoot, Negative
Overshoot, peak-peak, and amplitude measurements.
6 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Offset range
>20 GHz models
≥4 GHz, ≤20 GHz modelsOffset is reduced to allow for position control according to the following formulas:
Full Scale voltage rangeOffset range
62.5 mVFS – 1.2 V
>1.2 VFS – 6 V
FS
FS
±3.4 V
±6 V
10 mV/div to 99.5 mV/div: Offset range = ±(0.5 V - (V/div setting × 5 div))
100 mV/div to 500 mV/div: Offset range = ±(2.5 V - (V/div setting × 5 div))
SCALE rangeOffset range
10 mV/div±0.450 V
12 mV/div±0.440 V
14 mV/div±0.430 V
16 mV/div±0.420 V
18 mV/div±0.410 V
19.9 mV/div±0.4005 V
20 mV/div±0.400 V
30 mV/div±0.350 V
40 mV/div±0.300 V
49.8 mV/div±0.251 V
50 mV/div±0.250 V
60 mV/div±0.200 V
70 mV/div±0.150 V
80 mV/div±0.100 V
90 mV/div±0.050 V
99.5 mV/div±0.0025 V
100 mV/div±2.00 V
120 mV/div±1.90 V
140 mV/div±1.80 V
160 mV/div±1.70 V
200 mV/div±1.50 V
248 mV/div±1.260 V
250 mV/div±1.250 V
300 mV/div±1.00 V
400 mV/div±0.50 V
500 mV/div±0.00 V
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 7
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
±(0.4% | net offset | + 0.2% | net offset – Vterm
setting | + 2.5 mV + 1% Full Scale)
±(0.6% | net offset | + 13.4 mV + 1% Full Scale)
≥4 GHz, ≤20 GHz models
<4 GHz models
Analog bandwidth >20 GHz
models
SCALE rangeOffset accuracyTemperature variation
10 mV/div to 99.5 mV/div±(0.35% × | net offset | +
1.5 mV + 1% x Full Scale)
100 mV/div to 0.5 V/div±(0.35% × | net offset | +
±(0.45% × | offset | /°C)
7.5 mV + 1% x Full Scale)
SCALE rangeOffset accuracy
1 mV/div to 9.95 mV/div±(0.2% × | net offset | + 1.5 mV + 0.1 div × V/div
setting)
10 mV/div to 99.5 mV/div±(0.35% × | net offset | + 1.5 mV + 0.1 div × V/
div setting)
100 mV/div to 1 V/div±(0.35% × | net offset | + 15 mV + 0.1 div × V/
div setting)
1.01 V/div to 10 V/div±(0.25% × | net offset | + 150 mV + 0.1 div
× V/div setting)
Bandwidth with a TCA292D adapter.
Operating ambient temperature <30 °C. Use the Temperature variation table to determine the
amount of performance derating above the temperature limit.
Enhanced bandwidth only applies to full scale (FS) stepped gain settings of 62.5 mV, 100 mV,
200 mV, 500 mV, 1 V, 2 V, and 5 V.
8 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
The MSO/DPO73304DX, MSO/DPO72504DX, and MSO/DPO72304DX instrument bandwidths
with BWE disabled are typical.
MSO/DPO73304DX
BW settingsBandwidthSample rate
No BWEDC to >33 GHz, typicalAll
33 GHz BWEDC to >33 GHz100 GS/s
23 GHz BWEDC to >23 GHz50 GS/s
MSO/DPO72504DX
MSO/DPO72304DX
BW settingsBandwidthSample rate
No BWEDC to >25 GHz, typicalAll
25 GHz BWEDC to >25 GHz100 GS/s
23 GHz BWEDC to >23 GHz50 GS/s
BW settingsBandwidthSample rate
No BWEDC to >23 GHz, typical50, 100 GS/s
23 GHz BWEDC to >23 GHz50, 100 GS/s
Typical temperature derating
FrequencyTC, (dB/°C)
DC — 5 GHz0.005 dB/°C
10 GHz0.010 dB/°C
15 GHz0.025 dB/°C
20 GHz0.045 dB/°C
25 GHz0.065 dB/°C
30 GHz0.115 dB/°C
33 GHz0.160 dB/°C
Analog bandwidth ≥4 GHz,
≤20 GHz models
DC 50 Ω coupling, full bandwidth, TCA-292mm or TCA-N adapter, operating ambient temperature
15 °C to 40 °C (59 °F to 104 °F).
Enhanced bandwidth only applies to full scale (FS) settings of 100 mV, 200 mV, 500 mV, 1 V, and
2.5 V. Enhanced bandwidth of 4 GHz, 6 GHz, and 8 GHz is only available at 25 GS/s and 50 GS/s.
Use the Temperature variation table to determine the amount of performance derating above the
temperature limit.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 9
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
The MSO/DPO72004C and MSO/DPO71604C instrument bandwidths with BWE disabled are
typical.
MSO/DPO72004C
BW SettingsBandwidthTemp constraint
20 GHz BWE
20 mV, 50 mV, 100 mV, and
250 mV/div
20 GHz BWE
100 mV full scale (10 mV/div)
No BWEDC to >16 GHz, typical<30 °C
DC to >20 GHz<30 °C
DC to >18 GHz<30 °C
MSO/DPO71604C
MSO/DPO71254C
MSO/DPO70804C
MSO/DPO70604C
MSO/DPO70404C
BW SettingsBandwidthTemp constraint
BWEDC to >16 GHz<30 °C
No BWEDC to >16 GHz, typical<30 °C
BW SettingsBandwidthTemp constraint
BWEDC to >12.5 GHz<30 °C
No BWEDC to >12.5 GHz<30 °C
BW SettingsBandwidthTemp constraint
BWEDC to >8 GHz<45 °C
No BWEDC to >8 GHz<45 °C
BW SettingsBandwidthTemp constraint
BWEDC to >6 GHz<45 °C
No BWEDC to >6 GHz<45 °C
BW SettingsBandwidthTemp constraint
BWEDC to >4 GHz<45 °C
No BWEDC to >4 GHz<45 °C
Typical temperature variation
FrequencyTC, (dB/°C)
DC — 11 GHz0
12.5 GHz– 0.02
16 GHz– 0.04
18 GHz– 0.09
20 GHz– 0.09
Analog bandwidth with P7313
active probe, ≥4 GHz models
MSO/DPO72004C, MSO/DPO71604CDC >12.5 GHz, typical
MSO/DPO71254CDC >11 GHz, typical
MSO/DPO70804CDC >8 GHz, typical
MSO/DPO70604CDC >6 GHz, typical
MSO/DPO70404CDC >4 GHz, typical
10 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Analog bandwidth 50 Ω DC
coupled <4 GHz models
DPO7354C
DPO7254C
DPO7104C
Full bandwidth, operating ambient of ≤ 30 °C (86 °F), derated by 1% for each °C above 30 °C
(86 °F)
Note: The DPO7354C is guaranteed 3.5 GHz bandwidth with BWE On and can be verified with a 4division sine wave. Typical bandwidth when measured with an 8-division sine wave is 3 GHz.
SCALE rangeBandwidth
10 mV/div to 1 V/divDC to 3.5 GHz, BWE on
DC to 2.5 GHz, BWE off
5 mV/div to 9.99 mV/divDC to 2.0 GHz
2 mV/div to 4.99 mV/divDC to 500 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
SCALE rangeBandwidth
10 mV/div to 1 V/divDC to 2.5 GHz
5 mV/div to 9.99 mV/divDC to 2.0 GHz
2 mV/div to 4.99 mV/divDC to 500 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
SCALE rangeBandwidth
5 mV/div to 1 V/divDC to 1.0 GHz
2 mV/div to 4.99 mV/divDC to 500 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
DPO7054C
Analog bandwidth 1 MΩ DC
coupled <4 GHz models
Analog bandwidth with TAP2500
VPI probe, typical, DPO7254C
SCALE rangeBandwidth
5 mV/div to 1 V/divDC to 500 MHz
2 mV/div to 4.99 mV/divDC to 400 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
Full bandwidth, operating ambient temperature of ≤ 30 °C (86 °F), derated by 1% for each °C
above 30 °C (86 °F)
SCALE rangeBandwidth
5 mV/div to 10 V/divDC to 500 MHz, typical
2 mV/div to 4.98 mV/divDC to 350 MHz, typical
1 mV/div to 1.99 mV/divDC to 175 MHz, typical
Full bandwidth, operating ambient of ≤ 30 °C (86 °F), derated by 1% for each °C above 30 °C
(86 °F)
SCALE rangeBandwidth
≥ 100 mV/divDC to 2.5 GHz
50 mV/div to 99.5 mV/divDC to 2.0 GHz
20 mV/div to 49.8 mV/divDC to 500 MHz
10 mV/div to 19.9 mV/divDC to 200 MHz
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 11
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
Analog bandwidth with X10
passive probe, typical, <4 GHz
models
Analog bandwidth selections
<4 GHz models
Lower frequency limit AC coupled
<4 GHz models
Upper frequency limit 250 MHz
bandwidth limited <4 GHz models
Upper frequency limit 20 MHz
bandwidth limited <4 GHz models
Passband flatness, BWE, typical
MSO/DPO73304DX, MSO/
DPO72504DX, MSO/
DPO72304DX
Full bandwidth, operating ambient of ≤ 30 °C (86 °F), derated by 1% for each °C above 30 °C
(86 °F)
SCALE rangeBandwidth
5 mV/div to 10 V/divDC to 500 MHz
2 mV/div to 4.98 mV/divDC to 300 MHz
1 mV/div to 1.99 mV/divDC to 175 MHz
20 MHz, 250 MHz, and Full
10 Hz when 1 MΩ, AC coupled. The limit is reduced by a factor of 10 when 10X, passive probes
are used.
250 MHz
20 MHz
Step settingsTemperature constraint
62.5 mVFS, 100 mVFS, 200 mVFS, 500 mVFS,
1 VFS, 2 VFS, and 5 V
± 0.5 dB from DC to 50% of nominal bandwidth.
± 1.5 dB from 50% to 80% of nominal
bandwidth.
All other gain settings
± 1.0 dB from DC to 50% of nominal bandwidth
± 2.0 dB from 50% to 80% of nominal
bandwidth.
FS
At 25 °C
MSO/DPO72004C, MSO/
DPO71604C, MSO/DPO71254C
Use the Temperature variation table to determine the amount of performance derating above the
temperature limit.
Step settingsTemperature constraint
100 mVFS, 200 mVFS, 500 m VFS, 1 VFS, and
2.5 VFS
± 0.5 dB from DC to 50% of nominal bandwidth.
± 1.5 dB from 50% to 80% of nominal
bandwidth.
Non-step settings
± 1.0 dB from DC to 50% of nominal bandwidth
± 2.0 dB from 50% to 80% of nominal
bandwidth.
At 25 °C
12 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
MSO/DPO70804C, MSO/
DPO70604C, MSO/DPO70404C
Typical temperature variation
Calculated rise time 50 Ω, typical,
>20 GHz models
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 13
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
DPO7104C
DPO7054C
Step response settling time,
typical, >20 GHz models
DSP off
Scale10% - 90%
1 mV/div - 1.99 mV/div1.2 ns
2 mV/div - 4.99 mV/div580 ps
5 mV/div - 9.9 mV/div300 ps
10 mV/div - 1 V/div300 ps
Scale10% - 90%
1 mV/div - 1.99 mV/div1.2 ns
2 mV/div - 4.99 mV/div680 ps
5 mV/div - 9.9 mV/div460 ps
10 mV/div - 1 V/div460 ps
The time by which the step response enters and stays below the indicated % error. Step transition
occurs at the 50% amplitude point of the step leading edge.
InstrumentGain setting (FS)Settling Error Time
MSO/
DPO73304DX,
MSO/
DPO72504DX,
MSO/
DPO72304DX
62.5 mV, 100 mV, 200 mV,<6%150 ps – 400 ps
500 mV, 1 V, 1.2 V, 1.4 V,<5% (<5.5%400 ps – 3 ns
2 V, 4 VMSO/
DPO73304DX)
<3%
3 ns – 1 ms
DSP on (fastest BWE setting)DSP on (fastest BWE setting) Instrument Gain setting (FS) Settling
InstrumentGain setting (FS)Settling ErrorTime
MSO/
DPO73304DX
MSO/
DPO72504DX,
MSO/
DPO72304DX
62.5 mV, 100 mV, 200 mV,<3.5%150 ps – 400 ps
500 mV, 1 V, 1.2 V, 1.4 V,<2.5%400 ps – 3 ns
2 V, 4 V<1.5%3 ns – 1 ms
14 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Step response settling time
≥4 GHz, ≤20 GHz models
DSP off
DSP on
The time by which the step response enters and stays below the indicated % error. Step transition
occurs at the 50% amplitude point of the step leading edge.
InstrumentGain setting (FS)± Step
amplitude
MSO/
DPO72004C
MSO/
DPO71604C
MSO/
DPO71254C
MSO/
DPO70804C
MSO/
DPO70604C
MSO/
DPO70404C
InstrumentGain setting (FS)± Step
MSO/
DPO72004C
MSO/
DPO71604C
MSO/
DPO71254C
MSO/
DPO70804C
MSO/
DPO70604C
MSO/
DPO70404C
100 mV, 200 mV, 500 mV, 1 V,
2 V, 5 V
100 mV, 200 mV, 500 mV, 1 V,
2 V, 5 V
100 mV
200 mV
500 mV
1 V
2 V
5 V
100 mV
200 mV
500 mV
1 V
2 V
5 V
100 mV
200 mV
500 mV
1 V
2 V
5 V
100 mV
200 mV
500 mV
1 V
2 V
5 V
≤ 100% FS,
≤ 50% FS
overdrive
≤ 100% FS,
≤ 50% FS
overdrive
amplitude
≤ 100% FS,
≤ 50% FS
overdrive
≤ 100% FS,
≤ 50% FS
overdrive
≤ 100% FS,
≤ 50% FS
overdrive
≤ 100% FS,
≤ 50% FS
overdrive
Settling
Error
< 9%
< 5.5%
< 2.5%
< 0.15%
< 6%
< 3%
<2.5%
<0.15%
Settling Error
AmountTime
<6%
<3%
<2.5%
<0.15%
< 6%
< 3%
< 2.5%
< 0.15%
< 6%
< 3%
< 2.5%
< 0.15%
< 6%
< 3%
< 2.5%
< 0.15%
Time
150 ps
400 ps
3 ns
1 ms
150 ps
600 ps
3 ns
1 ms
100 ps
400 ps
3 ns
1 ms
150 ps
600 ps
3 ns
1 ms
200 ps
800 ps
3 ns
1 ms
300 ps
1.2 ns
3 ns
1 ms
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 15
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
Pulse response peak detect or
envelope mode <4 GHz models
This instrument uses analog peak detection for pulse capture in Peak Detect or Envelope mode at
sample rates of 125 MS per second and slower. At faster sample rates the instrument uses
conventional sampling.
The minimum single pulse widths for 50% or greater amplitude capture for pulses greater than
2 divisions in magnitude.
Sample rate settingMinimum pulse width
≤ 10 GS/s1 ÷ (sample rate) or 100 ps
40 MS/s1 ÷ (sample rate) or 25 ps
16 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Effective bits, typical, ≥4 GHz
models
DSP on, Enhanced MIMO filter,
full bandwidth
Nine division sine wave input at the indicated frequency, sampled at 500 mVFS vertical sensitivity
and maximum sample rate.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 39
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
40 GS/s
Step gain2.5 GHz0.5 GHz0.25 GHz0.02 GHz
100 mV/div6.3 mV3.8 mV3.2 mV3.0 mV
50 mV/div2.4 mV1.75 mV1.6 mV1.5 mV
20 mV/div1.07 mV0.7 mV0.63 mV0.595 mV
10 mV/div0.61 mV0.38 mV0.32 mV0.3 mV
5 mV/div0.41 mV0.24 mV0.18 mV0.151 mV
2 mV/div0.19 mV0.18 mV0.115 mV0.065 mV
1 mV/div0.12 mV0.12 mV0.115 mV0.045 mV
20 GS/s
Step gain2.5 GHz0.5 GHz0.25 GHz0.02 GHz
500 mV/div23.0 mV16.3 mV14.5 mV14.0 mV
200 mV/div10.5 mV6.9 mV6.1 mV5.8 mV
100 mV/div6.25 mV3.8 mV3.2 mV3.0 mV
50 mV/div2.4 mV1.75 mV1.6 mV1.5 mV
20 mV/div1.04 mV0.7 mV0.63 mV0.595 mV
10 mV/div0.605 mV0.38 mV0.32 mV0.3 mV
5 mV/div0.4 mV0.24 mV0.18 mV0.151 mV
2 mV/div0.19 mV0.18 mV0.115 mV0.065 mV
1 mV/div0.12 mV0.12 mV0.115 mV0.045 mV
10 GS/s
Step gain2.5 GHz0.5 GHz0.25 GHz0.02 GHz
500 mV/div22.8 mV16.3 mV14.5 mV14.0 mV
200 mV/div10.4 mV6.9 mV6.1 mV5.8 mV
100 mV/div6.15 mV3.8 mV3.2 mV3.0 mV
50 mV/div2.4 mV1.75 mV1.6 mV1.5 mV
20 mV/div1.035 mV0.7 mV0.63 mV0.595 mV
10 mV/div0.59 mV0.38 mV0.32 mV0.3 mV
5 mV/div0.395 mV0.24 mV0.18 mV0.151 mV
2 mV/div0.19 mV0.18 mV0.115 mV0.065 mV
1 mV/div0.12 mV0.12 mV0.115 mV0.045 mV
40 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
DPO7254C Enhanced
bandwidth
40 GS/s
Step gain2.5 GHz2.0 GHz1.0 GHz0.5 GHz
500 mV/div19.7 mV16.2 mV12.1 mV9.9 mV
200 mV/div8.71 mV6.97 mV4.97 mV4.0 mV
100 mV/div5.23 mV4.25 mV2.97 mV2.36 mV
50 mV/div2.0 mV1.64 mV1.23 mV1.03 mV
20 mV/div0.866 mV0.707 mV0.528 mV0.431 mV
10 mV/div0.523 mV0.425 mV0.297 mV0.236 mV
5 mV/div0.343 mV0.349 mV0.21 mV0.154 mV
2 mV/div0.135 mV0.135 mV0.135 mV0.135 mV
1 mV/div0.095 mV0.095 mV0.095 mV0.095 mV
20 GS/s
Step gain2.5 GHz2.0 GHz1.0 GHz0.5 GHz
500 mV/div19.5 mV16.1 mV12.0 mV9.8 mV
200 mV/div8.7 mV7.05 mV5.1 mV4.0 mV
100 mV/div5.15 mV4.2 mV2.95 mV2.35 mV
50 mV/div2.0 mV1.65 mV1.25 mV1.05 mV
20 mV/div0.855 mV0.71 mV0.52 mV0.425 mV
10 mV/div0.515 mV0.42 mV0.295 mV0.235 mV
5 mV/div0.34 mV0.345 mV0.21 mV0.155 mV
2 mV/div0.135 mV0.135 mV0.135 mV0.135 mV
1 mV/div0.095 mV0.095 mV0.095 mV0.095 mV
10 GS/s
Step gain2.5 GHz2.0 GHz1.0 GHz0.5 GHz
500 mV/div20.2 mV16.7 mV12.5 mV10.3 mV
200 mV/div8.9 mV7.3 mV5.3 mV4.16 mV
100 mV/div5.3 mV4.3 mV3.05 mV2.4 mV
50 mV/div2.1 mV1.7 mV1.3 mV1.1 mV
20 mV/div0.88 mV0.74 mV0.55 mV0.435 mV
10 mV/div0.52 mV0.43 mV0.3 mV0.24 mV
5 mV/div0.345 mV0.33 mV0.21 mV0.155 mV
2 mV/div0.135 mV0.135 mV0.135 mV0.135 mV
1 mV/div0.095 mV0.095 mV0.095 mV0.095 mV
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 41
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
DPO7254C Without enhanced
bandwidth
40 GS/s
Step gain2.5 GHz0.5 GHz0.25 GHz0.02 GHz
500 mV/div22.7 mV16.4 mV15.0 mV14.5 mV
200 mV/div9.84 mV6.97 mV6.2 mV5.8 mV
100 mV/div5.89 mV3.74 mV3.2 mV2.9 mV
50 mV/div2.31 mV1.69 mV1.55 mV1.45 mV
20 mV/div0.964 mV0.697 mV0.63 mV0.59 mV
10 mV/div0.574 mV0.379 mV0.325 mV0.295 mV
5 mV/div0.4 mV0.231 mV0.175 mV0.145 mV
2 mV/div0.19 mV0.195 mV0.12 mV0.065 mV
1 mV/div0.12 mV0.12 mV0.12 mV0.045 mV
20 GS/s
Step gain2.5 GHz0.5 GHz0.25 GHz0.02 GHz
500 mV/div21.8 mV16.0 mV15.0 mV14.5 mV
200 mV/div9.6 mV6.8 mV6.2 mV5.8 mV
100 mV/div5.7 mV3.65 mV3.2 mV2.9 mV
50 mV/div2.25 mV1.65 mV1.55 mV1.45 mV
20 mV/div0.94 mV0.68 mV0.63 mV0.49 mV
10 mV/div0.56 mV0.37 mV0.325 mV0.295 mV
5 mV/div0.38 mV0.225 mV0.175 mV0.145 mV
2 mV/div0.19 mV0.195 mV0.12 mV0.065 mV
1 mV/div0.12 mV0.12 mV0.12 mV0.045 mV
10 GS/s
Step gain2.5 GHz0.5 GHz0.25 GHz0.02 GHz
500 mV/div21.8 mV16.0 mV15.0 mV15.5 mV
200 mV/div9.6 mV6.8 mV6.2 mV5.8 mV
100 mV/div5.65 mV3.65 mV3.2 mV2.9 mV
50 mV/div2.2 mV1.65 mV1.55 mV1.45 mV
20 mV/div0.94 mV0.68 mV0.63 mV0.59 mV
10 mV/div0.56 mV0.37 mV0.325 mV0.295 mV
5 mV/div0.37 mV0.225 mV0.175 mV0.145 mV
2 mV/div0.19 mV0.195 mV0.12 mV0.065 mV
1 mV/div0.12 mV0.12 mV0.12 mV0.045 mV
42 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
DPO7104C Enhanced
bandwidth
20 GS/s
Step gain1.0 GHz0.5 GHz
500 mV/div13.2 mV9.7 mV
200 mV/div5.57 mV3.93 mV
100 mV/div3.27 mV2.24 mV
50 mV/div1.36 mV0.98 mV
20 mV/div0.574 mV0.408 mV
10 mV/div0.328 mV0.232 mV
5 mV/div0.229 mV0.16 mV
2 mV/div0.135 mV0.135 mV
1 mV/div0.095 mV0.095 mV
10 GS/s
Step gain1.0 GHz0.5 GHz
500 mV/div14.7 mV10.3 mV
200 mV/div6.09 mV4.34 mV
100 mV/div3.55 mV2.38 mV
50 mV/div1.53 mV1.05 mV
20 mV/div0.625 mV0.441 mV
10 mV/div0.350 mV0.24 mV
5 mV/div0.236 mV0.16 mV
2 mV/div0.135 mV0.135 mV
1 mV/div0.095 mV0.095 mV
5 GS/s
Step gain1.0 GHz0.5 GHz
500 mV/div15.9 mV10.7 mV
200 mV/div6.71 mV4.48 mV
100 mV/div3.74 mV2.46 mV
50 mV/div1.68 mV1.1 mV
20 mV/div0.682 mV0.454 mV
10 mV/div0.378 mV0.247 mV
5 mV/div0.241 mV0.16 mV
2 mV/div0.135 mV0.135 mV
1 mV/div0.095 mV0.095 mV
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 43
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
DPO7104C Without enhanced
bandwidth
20 GS/s
Step gain1.0 GHz0.5 GHz0.025 GHz0.02 GHz
500 mV/div16.2 mV15.2 mV14.0 mV13.3 mV
200 mV/div6.8 mV6.3 mV5.7 mV5.3 mV
100 mV/div3.7 mV3.4 mV3.0 mV2.8 mV
50 mV/div1.7 mV1.6 mV1.45 mV1.4 mV
20 mV/div0.7 mV0.64 mV0.58 mV0.55 mV
10 mV/div0.38 mV0.35 mV0.3 mV0.285 mV
5 mV/div0.25 mV0.21 mV0.17 mV0.14 mV
2 mV/div0.15 mV0.15 mV0.1 mV0.065 mV
1 mV/div0.11 mV0.11 mV0.11 mV0.04 mV
10 GS/s
Step gain1.0 GHz0.5 GHz0.025 GHz0.02 GHz
500 mV/div16.2 mV15.2 mV14.0 mV13.3 mV
200 mV/div6.8 mV6.3 mV5.7 mV5.3 mV
100 mV/div3.7 mV3.4 mV3.0 mV2.8 mV
50 mV/div1.7 mV1.6 mV1.45 mV1.4 mV
20 mV/div0.7 mV0.64 mV0.58 mV0.55 mV
10 mV/div0.38 mV0.35 mV0.3 mV0.285 mV
5 mV/div0.25 mV0.21 mV0.17 mV0.14 mV
2 mV/div0.15 mV0.15 mV0.1 mV0.065 mV
1 mV/div0.11 mV0.11 mV0.11 mV0.04 mV
5 GS/s
Step gain1.0 GHz0.5 GHz0.025 GHz0.02 GHz
500 mV/div16.2 mV16.2 mV14.0 mV13.3 mV
200 mV/div6.8 mV6.3 mV5.7 mV5.3 mV
100 mV/div3.7 mV3.4 mV3.0 mV2.8 mV
50 mV/div1.7 mV1.6 mV1.45 mV1.4 mV
20 mV/div0.7 mV0.64 mV0.58 mV0.550 mV
10 mV/div0.38 mV0.35 mV0.3 mV0.285 mV
5 mV/div0.25 mV0.21 mV0.17 mV0.14 mV
2 mV/div0.15 mV0.15 mV0.1 mV0.065 mV
1 mV/div0.11 mV0.11 mV0.11 mV0.04 mV
44 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
DPO7054C Enhanced
bandwidth
10 GS/s
Step gain0.5 GHz
500 mV/div11.9 mV
200 mV/div5.0 mV
100 mV/div2.75 mV
50 mV/div1.2 mV
20 mV/div0.5 mV
10 mV/div0.28 mV
5 mV/div0.185 mV
2 mV/div0.11 mV
1 mV/div0.09 mV
5 GS/s
Step gain0.5 GHz
500 mV/div13.0 mV
200 mV/div5.35 mV
100 mV/div2.95 mV
50 mV/div1.35 mV
20 mV/div0.54 mV
10 mV/div0.3 mV
5 mV/div0.19 mV
2 mV/div0.11 mV
1 mV/div0.09 mV
DPO7054C Without enhanced
bandwidth
2.5 GS/s
Step gain0.5 GHz
500 mV/div15.0 mV
200 mV/div6.2 mV
100 mV/div3.35 mV
50 mV/div1.56 mV
20 mV/div0.63 mV
10 mV/div0.375 mV
5 mV/div0.205 mV
2 mV/div0.11 mV
1 mV/div0.09 mV
10 GS/s
Step gain0.5 GHz0.025 GHz0.02 GHz
500 mV/div15.1 mV14.0 mV13.2 mV
200 mV/div6.35 mV5.7 mV5.4 mV
100 mV/div3.4 mV2.95 mV2.75 mV
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 45
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Vertical system analog channels
(cont.)
10 GS/s
Step gain0.5 GHz0.025 GHz0.02 GHz
50 mV/div1.6 mV1.45 mV1.38 mV
20 mV/div0.645 mV0.58 mV0.55 mV
10 mV/div0.34 mV0.3 mV0.277 mV
5 mV/div0.21 mV0.165 mV0.141 mV
2 mV/div0.13 mV0.1 mV0.062 mV
1 mV/div0.096 mV0.097 mV0.04 mV
5 GS/s
Step gain0.5 GHz0.025GHz0.02 GHz
500 mV/div15.1 mV14.0 mV13.2 mV
200 mV/div6.35 mV5.7 mV5.4 mV
100 mV/div3.4 mV2.95 mV2.75 mV
50 mV/div1.6 mV1.45 mV1.38 mV
20 mV/div0.645 mV0.58 mV0.55 mV
10 mV/div0.34 mV0.3 mV0.277 mV
5 mV/div0.21 mV0.165 mV0.141 mV
2 mV/div0.13 mV0.1 mV0.062 mV
1 mV/div0.096 mV0.097 mV0.04 mV
2.5 GS/s
Step gain0.5 GHz0.025GHz0.02 GHz
500 mV/div15.1 mV14.0 mV13.2 mV
200 mV/div6.35 mV5.7 mV5.4 mV
100 mV/div3.4 mV2.95 mV2.75 mV
50 mV/div1.6 mV1.45 mV1.38 mV
20 mV/div0.645 mV0.58 mV0.55 mV
10 mV/div0.34 mV0.3 mV0.277 mV
5 mV/div0.21 mV0.165 mV0.141 mV
2 mV/div0.13 mV0.1 mV0.062 mV
1 mV/div0.096 mV0.097 mV0.04 mV
46 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Vertical system analog channels (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Channel-to-channel crosstalk
(channel isolation)
>20 GHz models, typicalInput frequency range (up to the rated bandwidth). Assumes two channels with the same scale and
bandwidth settings.
0 to 9 GHz≥ 120:1 isolation
>9 to 12 GHz≥ 80:1 isolation
>12 to 15 GHz≥ 50:1 isolation
>15 to 20 GHz≥ 25:1 isolation
>20 to 33 GHz≥ 20:1 isolation
≥ 4 GHz, ≤20 GHz models,
typical
<4 GHz models, typicalRMS voltage ratio of ≥ 100:1 at ≤ 100 MHz and ≥ 30:1 at > 100 MHz up to 2.5 GHz, and
Delay between channels, BWE,
typical
>20 GHz models≤ 1 ps between any two channels at any gain setting at 25 °C ±5 °C. Derate linearly to ≤ 3 ps at
Delay between channels, full
bandwidth, equivalent time, typical
>20 GHz models≤ 3 ps between any two channels at any gain setting at 25 °C.
≥ 4 GHz, ≤20 GHz models≤ 10 ps between any two channels with equal volts/div and coupling settings.
Input frequency range (up to the rated bandwidth). Assumes two channels with the same scale and
bandwidth settings.
0 to 10 GHz≥ 120:1 isolation
>10 GHz to 12 GHz≥ 80:1 isolation
>12 GHz to 15 GHz≥ 50:1 isolation
>15 GHz to 20 GHz≥ 25:1 isolation
≥20:1 above 2.5 GHz
5 °C and 45 °C.
≤ 10 ps for any two channels at any gain setting over temperature.
≤ 10 ps delay change when enabling and disabling Channel Equalization (DSP matching).
Delay between channels, typical
<4 GHz models
Internal probe power <4 GHz
models
Probe power per probe, <4 GHz
models
≤ 100 ps between any two channels with the same scale and coupling settings with input
impedance set to 50 Ω, DC coupling and scale set at or above 10 mV/div.
50 W maximum
VoltageMaximum AmperageVoltage Tolerance
5 V50 mA± 5%
12 V1 A±10%
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 47
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Equivalent-time sample rate or
interpolated waveform rate range
≥4 GHz modelsUp to 5 TS/s and 0.2 ps trigger placement resolution
<4 GHz modelsUp to 4 TS/s
Maximum record length, sample
mode, ≥4 GHz models
Equivalent-time acquisition can be enabled or disabled. When disabled, waveforms are interpolated
at the fastest time base settings.
The maximum record length depends on the installed record length options. Maximum record
length is less in serial trigger mode, hi-res mode, or when using the FIR filter.
Option 2XL installed
(standard on DPO70000C/DX Series)
Option 5XL installed
(standard on MSO70000C/DX Series)
Option 50XL installed (DX models only)500,000,000 points (all channels), 1 G on 1–
31,250,000 points
62,500,000 points (all channels)
2 channels at 50 GS/s and 100 GS/s sample
rates or greater (interpolated or equivalent time)
48 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Horizontal and acquisition system (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Maximum record length, sample
mode <4 GHz models
Standard, DPO7354C and
DPO7254C
DPO7104C
DPO7054C
Option 2RL installed,
DPO7354C and DPO7254C
DPO7104C
DPO7054C
The maximum record length depends on the number of active channels and the record length
options installed. Maximum record length is less in serial trigger mode, hi-res mode or when using
the FIR filter.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 49
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Horizontal and acquisition system
(cont.)
Seconds division range≥4 GHz models, Fastest sweep speed is 20 ps per division
<4 GHz models
DPO7354
C,
DPO7254
C
Horizontal
mode
Automatic 25 ps -
ConstantSR25 ps -
Manual25 ps -
Record
Length
1 K10 K100 K1 M10 M100 M400/500 M
20 s
20 s
40 s
250 ps 200 s
250 ps 200 s
250 ps 400 s
2.5 ns 1ks
2.5 ns 1ks
2.5 ns 4ks
50 ns 1 ks
50 ns 1 ks
25 ns 40 ks
500 ns 1 ks
500 ns 1 ks
250 ns 400 ks
5 us - 1 ks 5 us - 1 ks
5 us - 1 ks 10 us -
1 ks
2.5 us 4 Ms
12.5 us -
8.19 Ms
DPO7104
C,
DPO7054
C
Horizontal
mode
Automatic 25 ps -
ConstantSR25 ps -
Manual25 ps -
Acquisition update rate, typical
≥4 GHz modelsFast Acquisition on: 300,000 waveforms per second maximum
<4 GHz modelsFast Acquisition on: 250,000 waveforms per second maximum
Time base delay time range5 ns to 250 s
Internal time-base reference
frequency
10 MHz
Electronically adjustable over about ±5 ppm.
Record
Length
1 K10 K100 K1 M10 M100 M200/250 M
20 s
20 s
40 s
250 ps 200 s
250 ps 200 s
250 ps 400 s
2.5 ns 1ks
2.5 ns 1ks
2.5 ns 4ks
50 ns 1 ks
50 ns 1 ks
25 ns 40 ks
500 ns 1 ks
500 ns 1 ks
250 ns 400 ks
5 us - 1 ks 5 us - 1 ks
5 us - 1 ks 10 us -
1 ks
2.5 us 4Ms
5 us - 8 Ms
Long term sample rate
accuracy
<4 GHz models± 2.5 ppm initial accuracy. Aging < 1 ppm per year. Applies only when using the internal reference.
≥4 GHz models± 1.5 ppm initial accuracy. Aging < 1 ppm per year. Applies only when using the internal reference.
50 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Horizontal and acquisition system (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Timing jitter (aperture uncertainty),
typical
>20 GHz modelsMeasured at the maximum sample rate.
External Reference Low with ~0 dBm input drive at 10 MHz
<250 fs rms for record durations less than 10 μs
<350 fs rms for record durations less than 100 μs
<400 fs rms for record durations less than 10 ms
<600 fs rms for record durations less than 10 s
External Reference Hi with ~0 dBm input drive at 10 MHz
<250 fs rms for record durations less than 2 μs
<700 fs rms for record durations less than 10 s
For external reference in high (tracking) mode, the input reference must be low noise and the
edge slew rate must exceed 1.5 V/ns to achieve the typical jitter results.
Internal Reference
<250 fs rms for record durations less than 10 μs
<350 fs rms for record durations less than 100 μs
<400 fs rms for record durations less than 5 ms
In high (tracking) mode, the input reference must be low noise and the edge slew rate must
exceed 1.5 V/ns.
For internal reference, specification assumes no signal attached to the external reference input.
≥4 GHz, ≤20 GHz modelsMeasured at the maximum BWE enabled bandwidth.
Total:
<250 fs rms for record durations less than 10 μs
<350 fs rms for record durations less than 100 μs
<650 fs rms for record durations less than 1 ms
<15 parts/trillion for record durations less than 60 s
<2 ps peak-to-peak for record durations less than 10 μs
<3 ps peak-to-peak for record durations less than 100 μs
<4 ps peak-to-peak for record durations less than 1 ms
This assumes either internal reference, or external reference in low (stable) mode. For external
reference in high (tracking) mode, the input reference must be low noise, and the edge slew rate
must exceed 1.5 V/ns to achieve the above approximate jitter results. For the general case,
external reference in high (tracking) mode, the specification is:
<250 fs rms for record durations less than 2 μs
You can approach the performance of internal reference using a clean reference signal with input
slew rate exceeding 1.5 V/ns. This is most easily achieved either with a square wave meeting that
slew rate or using a 100 MHz sine wave (≈2 Vp-p). This is required for the best possible
performance in synchronous sampling applications.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 51
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Horizontal and acquisition system
(cont.)
<4 GHz modelsTotal:
<1 ps rms for record durations less than 10 μs.
<2.5 ps rms for record durations less than 30 ms.
<65 parts/trillion for record durations less than 10 s.
Jitter noise floor, typical, ≥4 GHz
models
MSO/DPO70000DX models
MSO/DPO70000C models
Applies to time periods as long as 10.0 μs. Typical jitter noise floor is measured at the maximum,
BWE enabled bandwidth:
MSO/DPO73304DX
MSO/DPO72504DX
MSO/DPO72304DX
<323 fs
<364 fs
<378 fs
Calculate the jitter noise floor (JNF) for a given instrument setting using the following formula:
52 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Horizontal and acquisition system (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Timebase stability (sample rate
jitter or jitter noise floor), typical
<4 GHz models<1.0 ps rms for record durations less than 10 μs
Timebase jitter with external
reference, typical, ≥4 GHz models
Delta time measurement
accuracy, >20 GHz models
Total:
<2.5 ps rms for record durations less than 30 ms
<65 parts/trillion for record durations less than 10 s
≤3 ps
The formula to calculate the maximum delta-time measurement accuracy (DTAmax) for a given
instrument setting and input signal is given below (assumes insignificant signal content above
Nyquist and insignificant error due to aliasing, overdrive recovery and overdrive interpolation):
N
FN = 1.3 for instrument bandwidth ≤9 GHz; 1.5 for instrument bandwidth ≥10 GHz
SR1 = slew rate around 1st point in measurement (1st edge)
SR2 = slew rate around 2nd point in measurement (2nd edge)
TBA = timebase accuracy (2 ppm)
FI = 1.2 × 10–2
tr1 = rise time of first edge
r
t
2
tj = sample jitter/aperture uncertainty (about 250 fs for time durations less than 10 μs)
at 100 ms delay
RMS
= typical input-referred noise spec (volts rms)
typ
= rise time of second edge
t
= delta-time measurement (seconds)
reading
Peak-peak based on statistical accumulation of 1000 waveforms.
1
2
1
2
2
2
DTA
MAX
RMS is guaranteed regardless of data-gathering duration.
DTA
MAX
The term under the square-root sign is the stability and is due to time interval error (TIE). The
errors due to this term occur throughout a single-shot measurement. The second term is due to
both the absolute center-frequency accuracy and the center-frequency stability of the timebase and
varies between multiple single-shot measurements over the observation interval (the amount of
time from the first single-shot measurement to the final single-shot measurement). The observation
interval may not exceed 1 year.
Test at maximum bandwidth.
pk-pk
= 10 × (N
RMS
= 10 × (N
typ
typ
× FN)
TBA × t
× FN)
TBA × t
2
2
(
SR
reading
1
(
SR
reading
)
1
seconds
2
)
1
seconds
+
(
+
(
SR
SR
+ F
)
2
pk-pk
1
)
2
RMS
×(t
I
2
2
+ F
×(t
I
r1
2
r1
+ t
+ t
2
r2
2
r2
+ (2 × tj)2+
)
+ (2 × tj)2+
)
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 53
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Horizontal and acquisition system
(cont.)
The formula to calculate the maximum delta-time measurement accuracy (DTAmax) for a given
instrument setting and input signal is given below (assumes insignificant signal content above
Nyquist and insignificant error due to aliasing, overdrive recovery and overdrive interpolation):
SR1 = slew rate around 1st point in measurement (1st edge)
SR2 = slew rate around 2nd point in measurement (2nd edge)
FN = 1.3 for instrument bandwidth ≤9 GHz; 1.5 for instrument bandwidth ≥10 GHz
54 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Horizontal and acquisition system (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
Peak-peak based on statistical accumulation of 1000 waveforms.
1
2
1
DTA
MAX
RMS is guaranteed regardless of data-gathering duration.
DTA
MAX
The term under the square-root sign is the stability and is due to time interval error (TIE). The
errors due to this term occur throughout a single-shot measurement. The second term is due to
both the absolute center-frequency accuracy and the center-frequency stability of the timebase and
varies between multiple single-shot measurements over the observation interval (the amount of
time from the first single-shot measurement to the final single-shot measurement). The observation
interval may not exceed 1 year.
pk-pk
RMS
= 10 × (N
= (N
typ
typ
× FN)
× FN)
TBA × t
2
(
SR
TBA × t
2
1
1
(
SR
reading
2
+
)
reading
)
1
1
(
SR
seconds
2
+
(
seconds
2
)
2
+ 1ps2+ (2 × 10-9× t
)
SR
2
pk-pk
+ 1ps2+ (2 × 10-9× t
RMS
reading
reading
)2+
)2+
MSO/DPO72004C at 500 GS/s
(IT mode), BWE off
MSO/DPO71604C at 500 GS/s
(IT mode), BWE off
MSO/DPO71254C at 500 GS/s
(IT mode), BWE off
MSO/DPO70804C at 500 GS/s
(IT mode), BWE off
Test at maximum bandwidth. Test at 10 mV, 50 mV, 100 mV.
For signals having amplitude greater than 5 divisions, reference level = 50%, filter set to sin(x)/x,
acquired at 10 mV/div or greater. The displayed risetime/sample interval must be greater than
1.4 but less than 4. Extra error will occur for two channel measurements due to channel to channel
skew. Peak specification is based on statistical accumulation of 1000 waveforms.
Single shot, sample or HiRes, full bandwidth(0.06/sample rate + 2.5 ppm x | reading |)RMS
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 57
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Trigger specifications
Trigger jitter DC coupled A edge
random holdoff, typical
≥4 GHz models100 fs using enhanced trigger placement.
1 ps rms for low frequency, fast rise time signal, A edge, time holdoff = 30 μs
<4 GHz models1.5 ps rms for low frequency, fast rise time signal
(DPO7104C and DPO7054C: 3 ps total trigger jitter.)
Edge trigger sensitivity DC
coupled, typical
≥4 GHz models
<4 GHz models
All sources, positive or negative edge, for vertical scale settings ≥10 mV/div and ≤1 V/div
Trigger SourceSensitivity
A Event trigger≤ 4%FS from DC to 50 MHz
≤ 10%FS at 4 GHz
≤ 15%FS at 6 GHz
≤ 20%FS at 8 GHz
≤ 50%FS at 11 GHz
20%FS from DC to instrument bandwidth
(typical, enhanced trigger on, auto mode only for
frequencies above 8 GHz)
B Event trigger≤ 4%FS from DC to 50 MHz
≤ 10%FS at 4 GHz
≤ 15%FS at 6 GHz
≤ 50%FS at 9 GHz
20%FS from DC to instrument bandwidth
(typical, enhanced trigger on, auto mode only for
frequencies above 6 GHz)
Auxiliary input250 mV from DC to 50 MHz, increasing to
350 mV at 1 GHz
Trigger SourceSensitivity
Main and Delayed trigger≤ 0.7 div from DC to 50 MHz
≤ 1.2 div at 2.5 GHz
≤ 2.5 div at 3.5 GHz with BWE on
Auxiliary input1 MΩ: 250 mV from DC to 50 MHz, increasing to
350 mV at 250 MHz
50 Ω: 150 mV from DC to 50 MHz, increasing to
200 mV at 1.8 GHz
Video trigger, Ch1 - Ch40.6 to 2.5 divisions of video sync tip
Trigger sensitivity TPC, typicalThe minimum signal levels required for stable triggering of a waveform when the hardware is
incapable of doing so (excessive frequency, small input).
>20 GHz models
Trigger SourceSensitivity
A Event trigger, Ch1 – Ch420%×FS from DC to instrument bandwidth
B Event trigger, Ch1 – Ch420%×FS from DC to instrument bandwidth
58 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Trigger specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Edge trigger sensitivity not DC
coupled, typical
≥4 GHz models
<4 GHz models
All sources, positive or negative edge, for vertical scale settings ≥10 mV/div and ≤1 V/div
Trigger CouplingSensitivity
NOISE REJ15%FS from DC to 50 MHz
35%FS at 3 GHz
50%FS at 5 GHz
ACSame as DC-coupled limits for frequencies >
100 Hz, attenuates signals <100 Hz
HF REJSame as DC-coupled limits for frequencies <
20 kHz, attenuates signals > 20 kHz
LF REJSame as DC-coupled limits for frequencies >
200 kHz, attenuates signals < 200 kHz
Trigger couplingSensitivity
NOISE REJ3 times the DC-coupled limits
ACSame as DC-coupled limits for frequencies >
100 Hz, attenuates signals <100 Hz
HF REJSame as DC-coupled limits for frequencies <
20 kHz, attenuates signals > 20 kHz
LF REJSame as DC-coupled limits for frequencies >
200 kHz, attenuates signals < 200 kHz
Trigger level or threshold range
>20 GHz models
≥4 GHz, ≤20 GHz models
<4 GHz models
Trigger SourceRange
Any channel±100% FS from center of screen
Auxiliary input±4.0 V
Line0 V, Not settable
Trigger SourceRange
Any channel±120% FS from center of screen
Auxiliary input±4.0 V
Line0 V, Not settable
Trigger SourceRange
Any channel±12 divisions from center of screen
Auxiliary input±5 V
LineNot settable
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 59
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Trigger specifications (cont.)
Trigger level or threshold
accuracy, typical
≥4 GHz models
<4 GHz models
Trigger position error, typicalEdge trigger, DC coupling, for signals having a slew rate at the trigger point of ≥ 0.5 divisions/ns
≥4 GHz models
<4 GHz models
Time range for time-qualified
triggers
≥4 GHz models
Edge trigger, DC coupled
Trigger SourceAccuracy
Channel 1, 2, 3, or 4 ± [(2% | trigger level - net offset | ) + (3.5% FS)
For Glitch, Width, Time qualified runt, Transition, or Setup/hold violation types
Time rangeAccuracy
Glitch and width triggering (300 ps to 1.0 ns typical)
<300 ns to 1.01 μs±(3% of setting + 80 ps)
1.02 μs to 1 s±(TB accuracy + 100 ns)
Other time-qualified types (300 ps to 1.0 ns typical)
<300 ps to 1.01 μs±(5% of setting + 200 ps)
1.02 μs to 1 s±(TB accuracy + 20 ns)
Time rangeAccuracy
<1 μs (<2 ns typical)±(20% of setting + 0.5 ns)
1 μs to 1 s±(0.01% of setting + 100 ns)
60 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Trigger specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Width and glitch trigger sensitivity,
typical
≥4 GHz models15% x FS from DC to 1 GHz, not violating the minimum timing requirements for each type (for
vertical settings from 10 mV/div to 1 V/div at the input connector)
<4 GHz models1.0 division from DC to 1 GHz (at input connector)
Width and glitch trigger minimum
timing requirements
≥4 GHz models
<4 GHz models
Runt trigger sensitivity, typical
≥4 GHz models15% x FS from DC to 1 GHz, not violating the minimum timing requirements for each type (for
<4 GHz models1.0 division (at input connector)
Runt trigger, minimum timing
requirements
≥4 GHz models
For vertical scale settings 10 mV/div and 1 V/div
Minimum
pulse width
Width and glitch types150 ps300 psN.A.N.A.
Logic qualified width and glitch
types
Width type225 ps250 psN.A.N.A.
Logic qualified width type190 ps250 ps40 ps175 ps
Glitch type170 ps250 psN.A.N.A.
Logic qualified glitch type100 ps250 ps40 ps60 ps
vertical settings from 10 mV/div to 1 V/div at the input connector)
A runt event occurs at the end of the runt whether or not the runt was time qualified. Logic qualified
runt triggers require that the logic condition be true during the entire duration of the runt plus some
minimum amount of time after the runt event occurred.
Runt type200 ps300 ps
Logic qualified runt type200 ps300 ps300 ps300 ps
Time qualified runt type476 ps510 psN.A.N.A.
Time and logic qualified runt
type
150 ps300 ps20 ps40 ps
Minimum
pulse width
Minimum
pulse time
520 ps360 ps160 ps105 ps
Minimum
rearm time
Minimum
rearm time
Minimum
rearm time
Setup timeHold time
Setup timeHold time
Setup timeHold time
<4 GHz models
Runt type225 ps250 psN.A.N.A.
Time qualified runt type360 ps450 psN.A.N.A.
Logic qualified runt typeRunt width +
Time and logic qualified runt
type
Minimum
pulse time
150 ps
Runt width +
330 ps
Minimum
rearm time
250 ps160 ps-16 ps
250 ps160 ps175 ps
Setup timeHold time
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 61
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Trigger specifications (cont.)
Pattern and state trigger sensitivity
DC coupled, typical, ≥4 GHz
models
Logic and state trigger sensitivity
DC coupled, typical, <4 GHz
models
Logic and state trigger minimum
timing requirements, typical,
<4 GHz models
Video-type trigger formats and
field rates, <4 GHz models
Timeout trigger minimum timing
requirements
≥4 GHz models
15% x FS from DC to 1 GHz, not violating the minimum timing requirements for each type (for
vertical settings from 10 mV/div to 1 V/div at input connector)
1.0 division from DC to 1 GHz (for vertical settings from 10 mV/div to 1 V/div at input connector)
Minimum duration of logic state: 100 ps (10 GB/s). The minimum duration of the logic pattern
includes delay mismatch between channels.
Minimum pulse widthRearm time
Logic type100 ps (10 GB/s)100 ps
State type500 ps500 ps
Time qualified logic type300 ps500 ps
Triggers from negative sync composite video, field 1 or field 2 for interlaced systems, any field,
specific line, or any line for interlaced or non-interlaced systems. Supported systems include NTSC,
PAL, SECAM, and HDTV 1080/24sF, 1080p/25, 1080i/50, 1080i/60, 1080p/24, 720p/60, 480p/60.
Timeout event occurs after the signal has stayed in some state the minimum amount of time. Setup
and hold times are how long before and after the timeout event the logic level must remain valid in
order to generate a trigger.
Minimum
pulse width
Timeout typeN.A.300 ps + pulse
Logic qualified timeout typeN.A.300 ps + pulse
Minimum
rearm time
width
width
Setup timeHold time
N.A.N.A.
50 ps50 ps
<4 GHz models
Minimum
pulse width
Timeout type300 ps500 ps + pulse
Logic qualified timeout type300 ps500 ps + pulse
Minimum
rearm time
width
width
Setup timeHold time
N.A.N.A.
200 ps200 ps
62 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Trigger specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Window trigger minimum timing
requirements
≥4 GHz models
Window enters150 ps500 psN.A.N.A.
Window exits500 ps150 psN.A.N.A.
Logic qualified window enters150 ps500 psN.A.N.A.
Logic qualified window exits500 ps150 psN.A.N.A.
Window inside >tN.A.500 psN.A.N.A.
Window outside >tN.A.150 psN.A.N.A.
Minimum
pulse width
Minimum
rearm time
Setup timeHold time
<4 GHz models
Window225 ps300 psN.A.N.A.
Logic qualified window190 ps300 ps-20 ps0 ps
Transition trigger, minimum timing
requirements
≥4 GHz models
<4 GHz models
Transition trigger delta time range1 ns to 1 s
Setup-Hold violation trigger, setup
and hold time ranges
The transition trigger event occurs at the end of the transition. The logic condition must be valid at
the moment the transition event occurs minus the setup time plus the hold time. Rearm time is the
time below the lower threshold and the time above the upper threshold. Neither time can be
violated.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 63
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Trigger specifications (cont.)
Setup-hold time violation trigger,
minimum clock pulse widths,
typical
≥4 GHz models
Minimum time from active clock edge to
inactive edge
Hold times ≥ 0: Hold time + 550 ps500 ps
Hold times <0: Hold time + 1.6 ns500 ps
Minimum time from inactive clock edge to
active edge
<4 GHz models
Pattern and state trigger, minimum
timing requirements, typical,
≥4 GHz models
Period trigger sensitivity, typical
≥4 GHz models1.5 divisions (at input connector)
<4 GHz models1.0 division (at input connector)
B trigger after events minimum
timing requirements, typical
≥4 GHz models
Minimum time from active clock edge to
inactive edge
Hold times ≥ 0: Hold time + 500 ps500 ps
Hold times <0: Hold time + 1.5 ns
The transition trigger event occurs at the end of the transition. The logic condition must be valid at
the moment the transition event occurs minus the setup time plus the hold time.
Pattern type150 ps200 psN.A.N.A.
Time qualified pattern type150 ps300 psN.A.N.A.
State type1.7 GHzN.A.25 ps100 ps
Minimum pulse widthMaximum counting frequency Minimum time between
140 ps3.5 GHz1 ns
Minimum
pulse width
Minimum time from inactive clock edge to
active edge
Minimum
rearm time
Setup timeHold time
channels
<4 GHz models
B trigger after events, event
counter range
≥4 GHz models1 to 2,000,000,000
<4 GHz models1 to 10,000,000
B trigger after time, time delay
range
≥4 GHz models3.2 ns to 3 Ms
<4 GHz models5 ns to 250 s
Minimum pulse widthMaximum counting frequency Minimum time between
channels
200 ps1 ns
64 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Trigger specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Variable A event trigger holdoff
range
Lowest frequency for successful
set level to 50%, typical
Trigger jitter (RMS)
≥4 GHz models100 fs using enhanced Trigger placement. 1.0 ps RMS (typical) for low frequency, fast rise time
<4 GHz models1.5 ps RMS (typical)
250 ns to 12 s + random holdoff
50 Hz
signal, A edge, time holdoff = 30 μs.
Serial trigger specifications
Low speed serial trigger, ≥4 GHz
models
Number of bits128 bits
Baud rate limits10 Mbits/s
High speed serial trigger number
of bits
≥4 GHz models64 bits for NRZ data rates ≤ 1.25 GBaud
40 bits for 8b/10b data rates between 1.25 GBd and 6.25 GBd
<4 GHz models64 bits
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 65
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Serial trigger specifications (cont.)
High speed serial trigger, serial
word recognizer position accuracy
AND, NAND, OR, NOR qualified on the rising or falling edge, or either edge of CQ, the qualifying
channel
5 ps rms for A event edge trigger using low frequency, fast rise time signal
6% of FS from 0.15 GHz to 1 GHz
8% of FS from 1.01 GHz to 1.5 GHz
9% of FS from 1.51 GHz to 2.0 GHz
13% of FS from 2.0 GHz to 2.5 GHz
Low speed serial trigger threshold
accuracy, typical
Low speed serial trigger threshold
range
Maximum low speed serial trigger
toggle rate
Maximum digital acquisition
sample rate
Maximum record length, sample
mode
Standard12.5 GS/s or less 10,000,000 points (all channels)
Option 2XL installed12.5 GS/s or less 20,000,000 points (all channels)
Option 5XL installed12.5 GS/s or less 50,000,000 points (all channels)
Option 10XL installed12.5 GS/s or less 125,000,000 points (all channels)
Option 20XL installed12.5 GS/s or less 250,000,000 points (all channels)
±(3% of setting ±125 mV) relative to the probe tip input
+20 mV/°C from the operating temperature at which SPC was run
-2 to +4.5 V with DI probe
-1.5 to +4 V with GP probe
I2C: 3.4 MHz
SPI: 4.25 MHz
12.5 GS/s
The maximum record length depends on the number of active channels and the installed record
length options. The maximum record length is less in serial trigger mode, hi-res mode, or when
using the FIR filter.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 69
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Input-output port specifications
Auxiliary trigger input
characteristics and range
≥4 GHz models50 Ω, ±4 V (DC plus peak AC)
MSO/DPO70000DX: 50 Ω, ±5 V (DC plus peak AC)
<4 GHz models50 Ω, ± 5%; maximum input voltage ± 5 V (DC + peak AC)
1 MΩ, ±5%, 150 V CAT1. Derate at 20 dB/decade to 9 V RMS above 200 kHz
Auxiliary output logic polarity and
functionality
Auxiliary output logic levels
CH3 output voltage typical < 4 GHz
models
High speed serial data output baud
rate range
≥ 4 GHz modelsFbaud ≤ 1250 MB. Output swing of 1010 repeating pattern at this baud will be at least 200 mV into
High speed serial clock output
frequency range
≥4 GHz modelsPeak-to-peak output swing at 625 MHz is at least 200 mV p-p into 50 Ω. Higher frequencies are
Default output is A trigger low true (a negative edge when the A trigger event occurs). You can also
program the output to A trigger high true, B trigger low or high true, disabled, force high, and force
low.
V
highV
out
≥2.5 V into 1 MΩ load,
≥1.0 V into 50 Ω load to ground
50 mV/div ± 20% into a 1 MΩ load
25 mV/div ±20% into a 50 Ω load
50 Ω.
further attenuated by approximately 6 dB per octave above 625 MHz.
Use AC or DC coupled 50 Ω termination; AC coupling the clock provides about 10% more
amplitude.
low (true)
out
≤0.7 V into 1 MΩ load
≤0.25 V into 50 Ω load to ground
High speed serial data and clock
output voltages, typical
≥4 GHz modelsVoh = -1.0 V
Vol = -1.7 V
Assumes a load impedance greater than 1 kΩ. (50 Ω source termination.)
If a 50 Ω or 75 Ω load is used, either use a DC blocking capacitor in series with the signal or
reference the termination to about -1.3 V. The signal amplitude will be correspondingly reduced.
70 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Input-output port specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
High speed serial data output
latency, typical
≥4 GHz models11 ns ± 4 ns, plus the following synchronous latency depending on the data encoding:
35.5 clock cycles for NRZ, CMI, Manchester, and B-0-V decoded data.
36.5 clock cycles for NRZI decoded data.
39.5 clock cycles for B3ZS decoded data.
40.5 clock cycles for B4ZS decoded data.
42.5 clock cycles for B6ZS decoded data.
44.5 clock cycles for B8ZS decoded data.
Probe compensation output
step amplitude and offset
>20 GHz models440 mV ± 22% into a 50 Ω load (Vol = -0.14 V, Voh = 0.3 V, typical)
810 mV ± 22% into a ≥10 kΩ load, (Vol = -0.25 V, Voh = 0.56 V, typical)
≥4 GHz, ≤20 GHz models440 mV ± 22% into a 50 Ω load (Vol = -0.2 V to 0 V, Voh = 0.2 V to 0.4 V, typical)
810 mV ± 22% into a 10 kΩ load, (Vol = -0.4 V to 0 V, Voh = 0.4 V to 0.8 V)
<4 GHz models1 V ± 1.5% into a ≥ 100 kΩ load (Vol = -1.0 V, Voh = 0 V typical)
Add 0.05%/°C for temperatures greater than or less than 25 °C
Probe compensation output step
frequency
≥4 GHz models1 kHz ± 20%
<4 GHz models1 kHz ± 5%
Probe calibration output step rise
time
≥4 GHz models300 ps (10% to 90%) directly into an input channel. To deskew a probe, use a 50 Ω terminator in
series with the deskew fixture to minimize HF aberrations.
<4 GHz models≤350 ps at 1 V, into a ≥20 KΩ load to ground.
≤1 ns at 2 V, into a 50 Ω load to ground.
To deskew a probe, use a 50 Ω terminator in series with the deskew fixture to minimize HF
aberrations.
Probe calibration output step
aberrations
Jitter of internal probe calibration
trigger
≤ ± 1% after the first 500 ns following the square wave transition. To deskew a probe, use a 50 Ω
terminator in series with the deskew fixture to minimize HF aberrations.
5 ps RMS
External reference input frequency,
typical
Run SPC whenever the external reference is more than 0.1% (1000 ppm) different than the
nominal reference or the reference at which SPC was last run.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 71
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Input-output port specifications
(cont.)
The timebase changes in correspondence to the fluctuations in the external reference.
≥4 GHz models10 MHz, 100 MHz
The instrument scans for either 10 MHz or 100 MHz.
Running SPC is required whenever the external reference is more than 0.1% (1000 ppm) different
from the nominal reference frequency or reference at which SPC was last run.
<4 GHz models9.8 MHz to 10.2 MHz
Internal reference output
frequency
≥4 GHz models10 MHz
<4 GHz models10 MHz available at AUXOUT
Internal reference output voltage,
typical
≥4 GHz models> 750 mV peak-peak into 50 Ω
> 1.5 V peak-peak into 1 MΩ (internally AC coupled).
<4 GHz models
V
highV
out
≥2.5 V into open circuit,
≥1.0 V into 50 Ω load to ground
low (true)
out
≤0.7 V with ≤4 mA sink,
≤0.25 V into 50 Ω load to ground
72 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Input-output port specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C
series)
Input and output ports
DVI Video port>20 GHz models: A female Digital Visual Interface (DVI-D) compatible port
≤20 GHz models: A female Digital Visual Interface (DVI-I) compatible port
VGA port, DX models onlyA female Video Graphics Array (VGA) compatible port
Passive eSATA PortInstrument must be powered down to make connection
COM1 and COM2 serial ports9 pin D-Sub ports, use NS16C550-compatible UARTS, transfer speeds up to 115.2 kb/s.
DX models have only COM1.
Keyboard and Mouse portsPS-2 compatible, instrument must be powered down to make connection
LAN portRJ-45 connector, supports 10 base-T, 100 base-T, and Gigabit Ethernet
External audio portsExternal audio jacks for microphone input and line output
USB ports>20 GHz models: Four rear panel and 2 front panel USB 2.0 connectors. On DX models, two of the
rear panel connectors are USB 3.0/USB 2.0
≤20 GHz models: Four side or rear panel and 1 front panel USB 2.0 connectors
GPIB portIEEE 488.2 standard interface, listener or controller
Data storage specifications
Hard disk
>20 GHz modelsWaveforms and setups are stored on the hard disk.
2.5-inch SATA hard disk, drive capacity is ≥300 GB. DX models use a ≥300 GB solid state drive. C
models use a ≥500 GB hard disk drive.
≤20 GHz models2.5-inch SATA hard disk, drive capacity is ≥160 GB.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 73
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Power source specification
Power consumption
≥4 GHz models<1200 VA
<4 GHz models550 Watts maximum
Source voltage and frequency
≥4 GHz models100 to 240 V
115 V ± 10%, 400 Hz
CAT II
<4 GHz models100 V to 240 V
115 V ± 10%, 400 Hz
, 50 Hz to 60 Hz,
RMS
± 10%, 47 Hz to 63 Hz
RMS
Value probe interface (VPI), <4 GHz
models
Probe interface allows installing, powering, compensating and controlling a wide range of probes
offering a variety of features.
Mechanical specifications
Weight
<4 GHz models Benchtop
configuration
Rackmount kit0.9 kg (2 lbs)
≥4 GHz non-MSO models,
Benchtop configuration
MSO70000C Series, Benchtop
configuration
MSO70000DX Series,
Benchtop configuration
Rackmount kit, ≥4 GHz
models
14.0 kg (31 lbs) instrument only
21.8 kg (48 lbs) when packaged for domestic shipment
2.2 kg (5 lbs) kit packaged for domestic shipment
23 kg (50.6 lbs) oscilloscope only
37 kg (81.4 lbs) packaged for domestic shipment
25.0 kg (55 lbs) instrument only
39 kg (86 lbs) when packaged for domestic shipment
25.0 kg (55 lbs) instrument only
39 kg (86 lbs) when packaged for domestic shipment
2.04 kg (4.5 lbs) rackmount kit
3.4 kg (7.5 lbs) kit packaged for domestic shipment
74 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Mechanical specifications (cont.) Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Dimensions
<4 GHz models, Benchtop
configuration
With front cover and feetWithout front cover and feet
295.4 mm (11.6 in) height
468.6 mm (18.4 in) width
318 mm (12.5 in) depth
311.15 mm (12.25 in) height
482.6 mm (19.0 in) width
520.7 mm (20.5 in) depth
278 mm (10.95 in) height
450.8 mm (17.75 in) width
308.6 mm (12.15 in) depth
<4 GHz models, Rackmount
configuration
≥4 GHz models, Benchtop
configuration
≥4 GHz models, Rackmount
configuration
Cooling
Required clearances
With front cover and feetWithout front cover and feet
311.15 mm (12.25 in) height
482.6 mm (19.0 in) width
520.7 mm (20.5 in) depth
With front coverWithout front cover
278 mm (10.95 in) height
330 mm (13 in) with feet extended
451 mm (17.75 in) width
442 mm (17.4 in) depth
With rack handlesWithout rack handles
267 mm (10.5 in) height
502 mm (19.75 in) width
489 mm (19.4 in) depth
Fan-forced air circulation with no air filter
Top0 mm (0 in)
Bottom6.35 mm (0.25 in) minimum or 0 mm (0 in) when
Left side76 mm (3 in)
Right side76 mm (3 in) ≥4 GHz models
Rear0 mm (0 in) on rear feet
277 mm (10.9 in) height
330 mm (13 in) with feet extended
451 mm (17.75 in) width
432 mm (17.02 in) depth
267 mm (10.5 in) height
482 mm (19 in) width
442 mm (17.4 in) depth
standing on feet, flip stands down
0 mm (0 in) < 4 GHz models
Construction materialChassis parts are constructed of aluminum alloy, front panel is constructed of plastic laminate,
circuit boards are constructed of glass laminate
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 75
Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series)
Environmental specifications
Temperature <4 GHz models
Operating+5 °C to +45 °C (41 °F to +113 °F), with noncondensing conditions
Nonoperating-40 °C to +71 °C (-40 °F to +160 °F), with 15 °C/hour maximum gradient, without disk media
installed in disk drives
Temperature ≥4 GHz models
Operating+5 °C to +45 °C (41 °F to +113 °F), with 11 °C per hour maximum gradient, noncondensing,
derated 1 °C per 300 meters (984.25 feet) above 1500 meters (4921.25 feet) altitude
Nonoperating-20 °C to +60 °C (-4 °F to +140 °F), with 20 °C/hour maximum gradient, without disk media
installed in disk drives
Humidity >4 GHz models
Operating8% to 80% relative humidity with a maximum wet-bulb temperature of +29 ºC (84 °F) at or below
+45 ºC (113 °F), noncondensing
Upper limit derated to 30% relative humidity at +45 ºC (+113 °F)
Nonoperating5% to 90% relative humidity with a maximum wet-bulb temperature of +29 ºC (84 °F) at or below
+60 ºC (140 ºF), noncondensing
Upper limit derated to 20% relative humidity at +60 ºC (+140 °F)
Humidity ≥4 GHz models
Operating8% to 80% relative humidity at up to +32 °C (+90 °F)
5% to 45% relative humidity above +32 °C (+90 °F) up to +45 °C (+113 °F), noncondensing, and is
limited by a maximum wet-bulb temperature of +29.4 °C (+85 °F) (derates relative humidity to 32%
at +45 °C (+113 °F)
Nonoperating5% to 95% relative humidity at up to +30 °C (+86 °F),
5% to 45% relative humidity above +30 °C (+86 °F), up to +60 °C (+140 °F), noncondensing, and
is limited by a maximum wet-bulb temperature of +29.4 °C (+85 °F) (derates relative humidity to
11% at +60 °C (+140 °F))
Altitude <4 GHz models
OperatingUp to 3,000 meters (9,843 feet)
NonoperatingUp to 12,192 meters (40,000 feet)
Altitude ≥4 GHz models
OperatingUp to 3,000 meters (9,843 feet), derate maximum operating temperature by 1 °C per 300 meters
76 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Specifications (MSO/DPO5000/B Series)
This chapter contains specifications for the MSO5000/B and DPO5000/B series
oscilloscopes. All specifications are guaranteed unless noted as "typical." Typical
specifications are provided for your convenience but are not guaranteed.
Specifications that are marked with the
Verification.
All specifications apply to all MSO5000/B and DPO5000/B models unless noted
otherwise. To meet specifications, two conditions must first be met:
■
The instrument must have been operating continuously for twenty minutes
within the specified operating temperature range.
■
You must perform the Signal Path Compensation (SPC) operation before
evaluating the instrument's performance to the specifications. (See page 4-32,
Self Test.) If the operating temperature changes by more than 10 °C (18 °F),
perform the SPC operation again.
Analog channel input and vertical specification
Number of input channels4 analog channels, digitized simultaneously
symbol are checked in Performance
Input couplingDC or AC
Input resistance selection1 MΩ or 50 Ω
250 kΩ selectable for performance verification.
Input impedance DC coupled
1 MΩ
50 Ω
Input capacitance 1MΩ DC coupled 13 pF ± 2 pF
1 MΩ ±1%
50 Ω ±1%
MSO5204/B,
DPO5204/B
MSO5104/B,
DPO5104/B
MSO5054/B,
DPO5054B
MSO5034/B,
DPO5034/B
VSWR ≤1.5:1 from DC to 2 GHz, typical
VSWR ≤1.5:1 from DC to 1 GHz, typical
VSWR ≤1.5:1 from DC to 500 MHz, typical
VSWR ≤1.5:1 from DC to 350 MHz, typical
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 77
Specifications (MSO/DPO5000/B Series) Analog channel input and vertical specification (cont.)
Maximum input voltage
1 MΩ300 VRMS with peaks ≤±425 V at the BNC
CAT II
For <100 mV/div, derate at 20 dB/decade above 100 kHz to 30 VRMS at 1 MHz, 10 dB/decade
above 1 MHz
For ≥100 mV/div, derate at 20 dB/decade above 3 MHz to 30 VRMS at 30 MHz, 10 dB/decade
above 30 MHz
50 Ω5 VRMS with peaks ≤±20 V (DF ≤ 6.25%)
Overvoltage trip is intended to protect against overloads that might damage termination resistors. A
sufficiently large impulse might cause damage regardless of the overvoltage protection circuitry
because of the finite time required to detect and respond.
DC balance0.1 div with the input DC 50 Ω coupled and 50 Ω terminated
0.2 div at 1 mV/div with the input DC 50 Ω coupled and 50 Ω terminated
0.2 div with the input DC 1 MΩ coupled and 50 Ω terminated
Number of digitized bits8 bits
Displayed vertically with 25 digitization levels (DL) per division, 10.24 divisions dynamic range.
"DL" is the abbreviation for "digitization level." A DL is the smallest voltage level change that can be
resolved by an 8-bit A-D Converter. This value is also known as the LSB (least significant bit).
Sensitivity range (coarse)
1 MΩ1 mV/div to 10 V/div in a 1-2-5 sequence
50 Ω1 mV/div to 1 V/div in a 1-2-5 sequence
Sensitivity range (fine)
1 MΩ
50 Ω
Sensitivity resolution (fine)≤1% of current setting
DC gain accuracyFor 50 Ω, 1 MΩ, TPP0500, and TPP1000 path:
1 mV/div to 5 V/div<–50% to >+50% of selected setting
10 V/div<–50% to 0%
1 mV/div to 500 mV/div<–50% to >+50% of selected setting
1 V/div<–50% to 0%
Allows continuous adjustment from 1 mV/div to
10 V/div
±1.5%, derated at 0.100%/°C above 30 °C
Allows continuous adjustment from 1 mV/div to
1 V/div
±2.0%, derated at 0.100%/°C above 30 °C, 1 mV/Div setting, typical
±3.0% variable gain, derated at 0.100%/°C above 30 °C
78 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Analog channel input and vertical specification (cont.) Specifications (MSO/DPO5000/B Series)
Offset ranges, minimum
Position range±5 divisions
Offset accuracy±[0.005 × | offset - position | + DC Balance]
Number of waveforms for average
acquisition mode
Volts/div settingOffset range
1 MΩ input50 Ω input
1 mV/div to 50 mV/div±1 V±1 V
50.5 mV/div to 99.5 mV/div±0.5 V±0.5 V
100 mV/div to 500 mV/div±10 V±10 V
505 mV/div to 995 mV/div±5 V±5 V
1 V/div to 5 V/div±100 V±5 V
5.05 V/div to 10 V/div±50 VNot applicable
For 50 Ω path, 1 V/div is the maximum vertical setting.
The input signal cannot exceed Max Input Voltage for the 50 Ω input path. Refer to the Max Input
Voltage specification for more information.
Both the position and constant offset term must be converted to volts by multiplying by the
appropriate volts/div term.
2 to 10,000 waveforms
Default of 16 waveforms
DC voltage measurement accuracy
average acquisition mode
DC voltage measurement
accuracy, sample acquisition
mode, typical
Average of ≥ 16 waveforms±[DC Gain Accuracy × | reading – (offset -
position) | + offset accuracy + 0.1 division ]
Refer to DC Gain Accuracy for temperature
derating information.
Delta Volts between any two averages of
≥16 waveforms acquired with the same
oscilloscope setup and ambient conditions
Note: Offset, position, and the constant offset term must be converted to volts by multiplying by the
appropriate volts/div term.
The basic accuracy specification applies directly to any sample and to the following
measurements: High, Low, Max, Min, Mean, Cycle Mean, RMS, and Cycle RMS. The delta volt
accuracy specification applies to subtractive calculations involving two of these measurements.
The delta volts (difference voltage) accuracy specification applies directly to the following
measurements: Positive Overshoot, Negative Overshoot, Peak-to-Peak, and Amplitude.
±[DC gain accuracy × | reading | + 0.05 div]
Refer to DC Gain Accuracy for temperature
derating information.
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 79
Specifications (MSO/DPO5000/B Series) Analog channel input and vertical specification (cont.)
Measurement typeDC Accuracy (in volts)
Any sample±[DC gain accuracy × | reading - (offset -
position) | + offset accuracy +0.15 div + 0.6 mV]
Refer to DC Gain Accuracy for temperature
derating information.
Delta volts between any two samples acquired
with the same oscilloscope setup and ambient
conditions
Offset, position, and the constant offset term must be converted to volts by multiplying by the
appropriate volts/div term.
±[DC gain accuracy × | reading | + 0.15 div +
1.2 mV]
Refer to DC Gain Accuracy for temperature
derating information.
Analog bandwidth 50 Ω DC
coupled
Analog bandwidth 1 MΩ DC
coupled
Full bandwidth, with amplitude tolerance of -3 dB and operating temperatures of ≤30 °C (86 °F).
Reduce the bandwidth by 1% for each °C above 30 °C.
InstrumentSCALE rangeBandwidth
MSO5204/B,
DPO5204/B
MSO5104/B,
DPO5104/B
MSO5054/B,
DPO5054/B
MSO5034/B,
DPO5034/B
Full bandwidth, with amplitude tolerance of -3 dB and operating temperatures of ≤30 °C (86 °F).
Reduce the bandwidth by 1% for each °C above 30 °C.
DC to 2.00 GHz
DC to 1.50 GHz
DC to 350 MHz
DC to 175 MHz
DC to 1.00 GHz
DC to 350 MHz
DC to 175 MHz
DC to 500 MHz
DC to 350 MHz
DC to 175 MHz
DC to 350 MHz
DC to 175 MHz
80 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Analog channel input and vertical specification (cont.) Specifications (MSO/DPO5000/B Series)
The MSO/DPO5204/B and MSO/DPO5104/B models have separate 50 Ω and 1 MΩ analog paths,
so they must be tested at both settings. All other models have one analog path, so the analog path
is fully tested with the 50 Ω termination.
Analog bandwidth with TPP0500
and TPP1000 probe, typical
Lower frequency limit, AC coupled,
typical
Full bandwidth, with amplitude tolerance of -3 dB and operating temperatures of ≤30 °C (86 °F).
Reduce the bandwidth by 1% for each °C above 30 °C.
InstrumentSCALE rangeBandwidth
MSO5204/B,
DPO5204/B,
MSO5104/B,
DPO5104/B
MSO5054/B,
DPO5054/B
MSO5034/B,
DPO5034/B
< 10 Hz when AC, 1 MΩ coupled
The AC coupled lower frequency limits are reduced by a factor of 10 when 10X passive probes are
used.
50 mV/div — 100 V/divDC to 1 GHz (TPP1000 probe)
DC to 500 MHz (TPP0500
probe)
20 mV/div — 49.8 mV/divDC to 350 MHz
10 mV/div — 19.9 mV/divDC to 175 MHz
50 mV/div — 100 V/divDC to 500 MHz
20 mV/div — 49.8 mV/divDC to 350 MHz
10 mV/div — 19.9 mV/divDC to 175 MHz
50 mV/div — 100 V/divDC to 350 MHz
20 mV/div — 49.8 mV/divDC to 350 MHz
10 mV/div — 19.9 mV/divDC to 175 MHz
Upper frequency limit, 250 MHz
bandwidth limited, typical
Upper frequency limit, 20 MHz
bandwidth limited, typical
Calculated rise time, typicalCalculated Rise Time at 350/BW (MHz). The formula is calculated by measuring -3 dB bandwidth
250 MHz, ±20%
20 MHz, ±20%
of the oscilloscope. The formula accounts for the rise time contribution of the oscilloscope
independent of the rise time of the signal source.
Instrument50 Ω
10 mV/div to 1 V/
div
MSO5204/B,
DPO5204/B
Instrument50 Ω
MSO5104/B, DPO5104/B350 ps1 ns2 ns
MSO5054/B, DPO5054/B700 ps1 ns2 ns
MSO5034/B, DPO5034/B1 ns1 ns2 ns
175 ps233 ps1 ns2 ns
50 Ω
5 mV/div to
9.98 mV/div
5 mV/div to 1 V/
div
50 Ω
2 mV/div to
4.99 mV/div
50 Ω
2 mV/div to
4.99 mV/div
50 Ω
1 mV/div to
1.99 mV/div
50 Ω
1 mV/div to
1.99 mV/div
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 81
Specifications (MSO/DPO5000/B Series) Analog channel input and vertical specification (cont.)
Peak detect or envelope mode
pulse response, typical
InstrumentTPP1000 probe
50 mV/div to
100 mV/div
MSO5204/B, DPO5204/B350 psI ns2 ns
MSO5104/B, DPO5104/B350 psI ns2 ns
MSO5054/B, DPO5054/B700 psI ns2 ns
MSO5034/B, DPO5034/BI nsI ns2 ns
InstrumentTPP0500 probe
50 mV/div to
10 V/div
MSO5204/B, DPO5204/B700 psI ns2 ns
MSO5104/B, DPO5104/B700 psI ns2 ns
MSO5054/B, DPO5054/B700 psI ns2 ns
MSO5034/B, DPO5034/BI nsI ns2 ns
Instrument
(Sample Rate Maximum)
MSO5204/B, DPO5204/B,
MSO5104/B, DPO5104/B
MSO5054/B, DPO5054/B,
MSO5034/B, DPO5034/B
Minimum pulse width
>100 ps
>200 ps
TP1000 probe
20 mV/div to
49.8 mV/div
TPP0500 probe
20 mV/div to
49.8 mV/div
TPP1000 probe
10 mV/div to
19.9 mV/div
TPP0500 probe
10 mV/div to
19.9 mV/div
Effective bits, typicalSpecifications are valid at maximum per channel sample rate and at 1k record length.
ModelInput frequencyEffective bits
MSO5204/B,
DPO5204/B
MSO5104/B,
DPO5104/B
MSO5054/B,
DPO5054/B
MSO5034/B,
DPO5034/B
4.9 MHz6.0 bits
2 GHz6.0 bits
4.9 MHz6.0 bits
1 GHz6.0 bits
4.9 MHz6.0 bits
500 MHz6.0 bits
4.9 MHz6.0 bits
350 MHz6.0 bits
82 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Analog channel input and vertical specification (cont.) Specifications (MSO/DPO5000/B Series)
84 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Analog channel input and vertical specification (cont.) Specifications (MSO/DPO5000/B Series)
MSO/DPO5054B50 Ω termination
Vertical SettingFull BW250 MHz BW20 MHz BW
1 V/div50.0 50.0 40.0
Delay between channels, full
bandwidth, typical
Deskew range–75 ns to +75 ns
Crosstalk channel isolation≥100:1 at ≤100 MHz and ≥30:1 at >100 MHz up to the rated bandwidth for any two channels
TekVPI interfaceThe probe interface allows installing, powering, compensating, and controlling a wide range of
Total probe powerFive TekVPI-compliant probe interfaces (one per channel)
Probe power per channel
≤100 ps between any two channels with input impedance set to 50 Ω, DC coupling, with equal
volts/division setting or above 10 mV/div
All settings in the instrument can be manually time aligned using the Probe Deskew function
having equal Volts/Div settings
probes offering a variety of features.
The interface is available on all front panel inputs including Aux In. Aux In only provides 1 MΩ input
impedance and does not offer 50 Ω as the other input channels do.
15 W maximum internal probe power (12 W maximum with firmware versions <6.4.0)
Provision for 50 W probe power with 119-7465-00 TekVPI External Power Supply
VoltageMax AmperageVoltage Tolerance
5 V50 mA (250 mW)±5%
12 V2 A (24 W)±10%
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 85
Specifications (MSO/DPO5000/B Series)
Horizontal and acquisition system specifications
Sample rate
InstrumentMaximum sample rateNumber of channels
MSO5204/B, DPO5204/B,
MSO5104/B, DPO5104/B
MSO5054/B, DPO5054/B,
MSO5034/B, DPO5034/B
Record length, analog channels
10 GS/s1 or 2
5 GS/s3 or 4
5 GS/s1 – 4
OptionNumber of
Channels
Standard (MSO/DPO5000 Series)3 or 4 12.5 M12.5 M12.5 M12.5 M
1 or 2 25 M25 M12.5 M12.5 M
Option 2RL
(MSO/DPO5000 Series)
Standard
(MSO/DPO5000B Series)
Option 5RL3 or 4 50 M50 M50 M50 M
Option 10RL3 or 4 125 M125 M125 M125 M
Record length, digital channelsThe record length ranges for a standard instrument are the same as for the analog channel
3 or 4 25 M25 M25 M25 M
1 or 2 50 M50 M25 M25 M
1 or 2 125 M125 M50 M50 M
1 or 2 250 M250 M125 M125 M
specification table (above).
The record length ranges for an instrument with an option are the same as for the analog channel
specifications, up to 40M.
2 GHz1 GHz500 MHz350 MHz
86 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
Horizontal and acquisition system specifications (cont.) Specifications (MSO/DPO5000/B Series)
Seconds/Division range
MSO5204B,
DPO5204B,
MSO5104B,
DPO5104B
Horizontal Mode 1 K10 K100 K1 M10 M100 M200/250
Automatic250 ps -
Constant SR250 ps -
Manual250 ps -
MSO5054B,
DPO5054B,
MSO5034B,
DPO5034B
Horizontal Mode 1 K10 K100 K1 M10 M100 M
Automatic250 ps -
Constant SR250 ps -
Manual250 ps -
Record
Length
20 s
20 s
40 s
Record
Length
20 s
20 s
40 s
2.5 ns 200 s
2.5 ns 200 s
2.5 ns 400 s
2.5 ns 200 s
2.5 ns 200 s
2.5 ns 400 s
50 ns 1 ks
50 ns 1 ks
25 ns 4 ks
500 ns 1 ks
500 ns 1 ks
250 ns 40 ks
50 ns - 1 ks 500 ns -
50 ns - 1 ks 500 ns -
25 ns - 4 ks 250 ns -
5 us - 1 ks 50 us -
5 us - 1 ks 50 us -
2.5 us 400 ks
1 ks
1 ks
40 ks
M
50 us -
1 ks
1 ks
25 us 4 Ms
5 us - 1 ks50 us - 1 ks
5 us - 1 ks50 us - 1 ks
2.5 us 400 ks
1 ks
50 us 1 ks
50 us 8 Ms
25 us 4 Ms
Maximum update rateMaximum triggered acquisition rate: >250,000 wfm/s
Aperture uncertainty≤(3 ps + 0.1 ppm × record duration)RMS, for records having ≤1 minute duration
Long-term sample rate and
delay time accuracy
Delta-time measurement
accuracy
±5 ppm over any ≥1 ms time interval
The formula to calculate the delta-time measurement accuracy (DTAmax) for a given instrument
setting and input signal is given below (assumes insignificant signal content above Nyquist and
insignificant error due to aliasing):
SR1 = slew rate around 1st point in measurement (1st edge)
SR2 = slew rate around 2nd point in measurement (2nd edge)
N =input-referred noise (VRMS)
TBA = time base accuracy (5 ppm)
tp = delta-time measurement duration (seconds)
RD = (record length)/(sample rate)
tsr = 1/(sample rate)
assume edge shape that results from Gaussian filter response
MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series 87
Specifications (MSO/DPO5000/B Series) Horizontal and acquisition system specifications (cont.)
N
2
N
DTA
DTA
pk-pk
RMS
= ±5 × 2
N
= 2
SR
+ 2
SR
1
2
N
+ 2
1
SR
2
2
+ (3ps + 1 × 10-7× RD)2+ 2tsrTBA × t
SR
2
2
+ (3ps + 1 × 10-7× RD)2+
(
2 × t
sr
12
2
)
+ TBA × t
p
p
The term under the square-root sign is the stability and is due to TIE (Time Interval Error). The
errors due to this term occur throughout a single-shot measurement. The second term is due to
both the absolute center-frequency accuracy and the center-frequency stability of the time base
and varies between multiple single-shot measurements over the observation interval (the amount of
time from the first single-shot measurement to the final single-shot measurement).
The observation interval may not exceed 1 year.
Trigger specifications
Aux in external trigger input
impedance, typical
Aux in (external) trigger maximum
input voltage
Aux in external trigger bandwidth,
typical
Trigger bandwidth, edge, typical
Trigger bandwidth, pulse and
logic, typical
1 M Ω ±1% in parallel with 13 pF ±2 pF
The maximum input voltage at the BNC 300 VRMS
Installation Category II
Derate at 20 dB/decade above 3 MHz to 30 VRMS at 30 MHz, 10 dB/decade above 30 MHz.
250 MHz ±20%
MSO5204/B, DPO5204/B2 GHz
MSO5104/B, DPO5104/B1 GHz
MSO5054/B, DPO5054/B500 MHz
MSO5034/B, DPO5034/B 350 MHz350 MHz
MSO5204/B, DPO5204/B1 GHz
MSO5104/B, DPO5104/B1 GHz
MSO5054/B, DPO5054/B500 MHz
MSO5034/B, DPO5034/B350 MHz
88 MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series
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